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WO2012170474A1 - Système et procédé de conversion de fardage d'empreinte réduite - Google Patents

Système et procédé de conversion de fardage d'empreinte réduite Download PDF

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Publication number
WO2012170474A1
WO2012170474A1 PCT/US2012/041014 US2012041014W WO2012170474A1 WO 2012170474 A1 WO2012170474 A1 WO 2012170474A1 US 2012041014 W US2012041014 W US 2012041014W WO 2012170474 A1 WO2012170474 A1 WO 2012170474A1
Authority
WO
WIPO (PCT)
Prior art keywords
stock material
stack
set forth
sheet stock
sheet
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/US2012/041014
Other languages
English (en)
Inventor
Robert C. Cheich
David V. Murphy
Richard L. GWYNNE
Steven M. Toneff
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Ranpak Corp
Original Assignee
Ranpak Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Ranpak Corp filed Critical Ranpak Corp
Priority to US14/124,967 priority Critical patent/US9676586B2/en
Priority to EP12727980.0A priority patent/EP2718095B1/fr
Priority to CN201280028265.1A priority patent/CN103648760B/zh
Publication of WO2012170474A1 publication Critical patent/WO2012170474A1/fr
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H45/00Folding thin material
    • B65H45/02Folding limp material without application of pressure to define or form crease lines
    • B65H45/04Folding sheets
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B31MAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER; WORKING PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
    • B31DMAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER, NOT PROVIDED FOR IN SUBCLASSES B31B OR B31C
    • B31D5/00Multiple-step processes for making three-dimensional articles ; Making three-dimensional articles
    • B31D5/0039Multiple-step processes for making three-dimensional articles ; Making three-dimensional articles for making dunnage or cushion pads
    • B31D5/0043Multiple-step processes for making three-dimensional articles ; Making three-dimensional articles for making dunnage or cushion pads including crumpling flat material
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B31MAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER; WORKING PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
    • B31DMAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER, NOT PROVIDED FOR IN SUBCLASSES B31B OR B31C
    • B31D2205/00Multiple-step processes for making three-dimensional articles
    • B31D2205/0005Multiple-step processes for making three-dimensional articles for making dunnage or cushion pads
    • B31D2205/0011Multiple-step processes for making three-dimensional articles for making dunnage or cushion pads including particular additional operations
    • B31D2205/0017Providing stock material in a particular form
    • B31D2205/0035Providing stock material in a particular form as fan folded web

Definitions

  • This invention relates generally to a dunnage conversion system and method for converting a sheet stock material into a dunnage product, and more particularly to a more compact dunnage conversion system and method.
  • a packer In the process of shipping one or more articles from one location to another, a packer typically places some type of dunnage material in a shipping container, such as a cardboard box, along with the article or articles to be shipped.
  • the dunnage material partially or completely fills the empty space or void volume around the articles in the container. By filling the void volume, the dunnage prevents or minimizes movement of the articles that might lead to damage during the shipment process.
  • the dunnage also can perform blocking, bracing, or cushioning functions.
  • Some commonly used dunnage materials are plastic foam peanuts, plastic bubble pack, air bags and converted paper dunnage material.
  • dunnage material can be provided to the packer in advance, or the dunnage material can be produced as it is needed.
  • Low volume applications typically have used dunnage materials such as plastic foam peanuts and manually-crumpled newspaper. Plastic foam peanuts are messy and occupy the same volume when being stored as when being used. Crumpled newspaper also is messy and requires the packer to manually crumple the newspaper.
  • a dunnage conversion machine can be used to convert a supply of stock material, such as a roll or stack of paper, into a lower density dunnage product as it is needed by the packer.
  • stock material such as a roll or stack of paper
  • U.S. Patent No. 6,676,589 discloses a dunnage conversion machine that converts a continuous sheet of paper into a crumpled dunnage product.
  • a disadvantage of some conversion machines is their width or the amount of space that they occupy, and in some situations it would be desirable to provide a narrower converter and a correspondingly narrow supply of stock material.
  • the present invention provides a method of using an existing stack of fan- folded sheet stock material that effectively reduces the width of the stock material as it is drawn from the stack.
  • the conventional practice of drawing fan-folded sheet stock material from a stack includes pulling the sheet in a direction perpendicular to the widthwise-extending fold lines.
  • the stock material is withdrawn from the stack in a direction parallel to the width dimension, where fold lines in the stack also extend along the width direction, rather than parallel to the length dimension and transverse the width dimension, as is the conventional practice. Due to the attachment of successive sheets along the fold lines, the sheets deform from their planar state and crumple as they are drawn from the stack. This also reduces or eliminates the need to form the sheet material before it is pulled into the feed mechanism in the converter, thereby enabling simpler and smaller dunnage converters.
  • the present invention provides a method of converting a supply of sheet stock into a relatively less dense dunnage product.
  • the method includes the following steps: (i) providing a stack of fan-folded sheet material having fold lines generally extending in a direction parallel to a width dimension, and (ii) drawing sheet stock material from the stack in a direction generally parallel to the width dimension or in a direction parallel to the fold line.
  • the method includes one or more of the following steps: (a) the drawing step is accomplished by one or more rotating members in a conversion machine, and (b) the drawing step includes drawing sheet stock material from a top of the stack.
  • the presented invention also provides an apparatus for converting a supply of sheet stock material into a relatively less dense dunnage product, the supply including a stack of fan-folded sheet stock material having a width dimension and fold lines generally parallel to the width dimension; the apparatus comprising a housing enclosing a feed mechanism, and a support for a supply of sheet stock material upstream of housing to support a stack of fan-folded sheet stock material with the width dimension being aligned with a downstream direction through the housing.
  • FIG. 1 is a perspective view of a stack of single-ply, fan-folded sheet stock material suitable for conversion into a dunnage product.
  • FIG. 2 is a perspective view of the stack of sheet stock material of FIG. 1 illustrating another aspect of the invention.
  • FIG. 3 is a schematic view of a dunnage conversion system provided by the present invention, including the stack of sheet stock material of FIG. 2 and a schematic dunnage conversion machine.
  • FIG. 4 is a cross-sectional view of a dunnage product provided by the present invention, as seen along lines 4-4 in FIG. 3.
  • FIG. 5 is a perspective view of an exemplary dunnage conversion machine provided by the present invention.
  • FIG. 6 is a side elevation view of the dunnage conversion machine of FIG. 5 with a supply of fan-folded sheet stock material.
  • FIG. 7 is an enlarged view of a portion of the dunnage conversion machine of FIG. 6.
  • FIG. 8 is a perspective view of the dunnage conversion machine of FIG. 5 without the sheet stock material.
  • FIG. 9 is a top view of the dunnage conversion machine of FIG. 8.
  • FIG. 10 is a side view of the dunnage conversion machine of FIG. 6 with a side panel removed.
  • FIG. 1 1 is a perspective view with additional side panels removed to show internal features of the conversion machine.
  • FIG. 12 is an enlarged view of a side of the conversion machine shown in FIG. 1 1 with additional side panels removed to further illustrate the internal workings of the conversion machine.
  • FIG. 13 is a schematic perspective view of an exemplary dunnage product provided in accordance with the invention.
  • FIG. 14 is a perspective view of another exemplary dunnage conversion machine provided in accordance with the present invention as seen from a downstream end.
  • FIG. 15 is a perspective view of the dunnage conversion machine of FIG. 14 as seen from an upstream end.
  • FIG. 16 is a cross-sectional view of the dunnage conversion machine of FIG. 14, as seen along lines 16-16 in FIG. 14.
  • FIG. 17 is a perspective view of the conversion machine shown in FIG. 16 as seen from an upstream end with a stack of sheet stack material removed to more clearly see the stock supply.
  • FIG. 18 is a perspective view of the conversion machine shown in FIG. 17 as seen from a downstream end.
  • FIGS. 19-25 are sequential perspective views illustrating the process of loading a supply of sheet stock material into the dunnage conversion machine of FIG. 14.
  • FIG. 24 is an enlarged view of section 24 of FIG. 23.
  • the present invention provides a supply 20 (FIG. 1 ) of sheet stock material 22 (FIG. 1 ) for conversion into a relatively less- dense dunnage product 80 (FIG. 4).
  • the supply 20 includes a stack 22 of fan- folded sheet stock material and a cartridge or container 26 for receiving the stack 22.
  • the supply 20 provides a relatively wide sheet stock material 22 within a narrower footprint, reducing or eliminating the need to form the sheet material before it is pulled into a feed mechanism 30 (FIG. 3) in a dunnage conversion machine 32 (FIG. 3).
  • the stack 22 preferably includes one or more plies of sheet stock material, such as paper, and more particularly kraft paper.
  • the stack 22 has a width dimension W, a depth dimension D, and a height dimension H.
  • the sheet stock material 22 also has fold lines 34 generally parallel to the width dimension W.
  • the stock material also preferably is perforated or otherwise weakened along longitudinally-spaced, transversely-extending tear lines 36 to enable and/or facilitate separating discrete sections of dunnage from the crumpled strip.
  • the tear lines generally are coextensive with the fold lines 34.
  • the sheet stock material is drawn from the stack in a direction generally perpendicular to the width dimension of the stock material, which generally corresponds to the width of the stack. Successive sheets in the stack are connected together along fold lines that also extend along the width dimension.
  • Dunnage conversion machines that convert a supply of such stock material into a dunnage product generally have a width that is similar to the width of the stock material. Consequently, some existing dunnage conversion machines can take up a significant amount of floor space.
  • the present invention provides a way to reduce the width of a dunnage conversion machine, by drawing the sheet stock material from the stack in a direction generally parallel to the width dimension.
  • the present invention provides a method of converting a supply of sheet stock into a relatively less dense dunnage product by drawing sheet stock material from the stack in a direction parallel to the width dimension and the fold lines.
  • FIG. 3 shows the supply 20 in combination with a dunnage conversion machine 32, also referred to as a converter 32, for converting the stock material 22 into a relatively less dense dunnage product 80.
  • a dunnage conversion machine 32 also referred to as a converter 32
  • the conversion machine 32 includes a conversion assembly 33 that includes a feed mechanism 30 with at least one rotatable member operative to draw the sheet stock material from the folded stack 22.
  • the feed mechanism 30 has two rotating members 72 and 74, one of which is driven by a motor 76.
  • Exemplary rotating members include rollers, gears, paddles, embossing elements, etc. to draw the sheet stock material from the stack 22 and further act on the stock material to form the dunnage product 80.
  • the packer can tear the stock material at a tear line 36 (FIG. 1 ), or the conversion machine 32 can include a severing mechanism (not shown) to sever the desired length of dunnage from the stock material 22.
  • the conversion machine 32 can be much smaller and more compact, providing a dunnage conversion system that takes up less space and has a smaller footprint, particularly a smaller width.
  • the sheet stock material can be drawn from the stack 22 using a feed mechanism 30 of a dunnage conversion machine 32, as shown in FIG. 3. Since no forming device is needed, the dunnage conversion machine 32 can be reduced to a width a little wider than the depth dimension D of the stack 22.
  • the feed mechanism 30 acts on the stock material 22, such as by compressing the stock material to crease the folds, and by embossing, piercing, or otherwise acting on the stock material to help the resulting dunnage product 80 retain its shape, an example of which is illustrated in the cross-section shown in FIG. 4.
  • FIGS. 5-9 we will describe an exemplary embodiment of a dunnage conversion machine provided by the present invention.
  • conversion machine or converter 50 includes a housing 52 that encloses a conversion assembly 53 (FIG. 12) having a feed mechanism 54 (FIG. 12).
  • the housing 52 is mounted to a stand 56 having multiple wheels 60 for transporting the conversion machine 50 to a desired location.
  • the stand 56 includes a telescopically adjustable upright member 62 to which the housing 52 is mounted for angular adjustment about a horizontal axis. Consequently, this stand 56 allows the dunnage conversion machine 50 to be moved to where it is needed and then adjusted to dispense a dunnage product from a desired height and in a desired direction.
  • a supply 64 of fan-folded sheet stock material, as described above, is supported in a stock supply chamber 70 at a rear or upstream end of the dunnage conversion machine 50.
  • the stock supply chamber 70 is generally rectangular and has a length dimension L and a width dimension W that generally
  • the stock supply chamber 70 includes upright side walls 72 and rear walls 74 extending inwardly from the side walls 72 for supporting the sides of a stack 22 of fan-folded sheet stock material.
  • the chamber 70 is inclined so that the bottom of the chamber 70 lies at an angle relative to a horizontal plane.
  • a pair of laterally-spaced L-shape or right-angle supports 76 extend the length of the chamber 70 to support lateral edges of the stack 22.
  • the sheet stock material is drawn from a bottom side of the stack 22 into the feed mechanism 54 (FIG. 12) in the dunnage conversion machine 50.
  • a sensor can be provided as part of a system with an alarm to alert an operator to the need to replenish the supply before the previous stack is depleted.
  • a succeeding supply of sheet stock material may be spliced to the nearly spent supply of sheet stock material.
  • the bottom page of a succeeding supply of sheet stock material may be spliced to the top page of the nearly spent supply of sheet stock material.
  • the succeeding and almost spent supplies of sheet stock material may be spliced together by any suitable means, for example, by taping, gluing, or other attaching means.
  • the leading end of the top page of the almost spent supply of sheet stock material is provided with a pressure sensitive adhesive layer and a release liner, with the release liner covering the pressure sensitive adhesive layer.
  • An exemplary adhesive layer and release liner can take the form of an adhesive transfer tape having an acrylic adhesive and a paper strip release liner.
  • the conversion process can continue uninterrupted while this splicing operation takes place.
  • a release liner can be removed from a top sheet to the nearly spent supply of sheet stock material and a succeeding supply of sheet stock material can be placed on top of the nearly spent supply, splicing the top sheet of the nearly spent supply to the bottom sheet of the succeeding supply of sheet stock material to create a combined stack.
  • the conversion machine 50 Unlike most conversion machines that draw sheet stock material from a roll or the top of a stack, the conversion machine 50 provided by the invention continues to operate throughout the reloading operation, pulling sheets from the bottom of the combined stack 22. To facilitate drawing the bottom sheet off of the stack 22, the bottom sheet is supported on a series of rollers 80 that make it easier to draw the sheet stock material therefrom.
  • This series or a plurality of rollers 80 support a central portion of the bottom of the stack 22 of fan-folded sheet stock material.
  • the rollers 80 extend above the plane at which the lateral portions of the stack 22 are supported by the L-shape supports 76.
  • the stock supply chamber 70 is mounted on one or more drawer slides 82 to allow the chamber 70 to be pulled away from the housing 52 to facilitate loading a fresh stack 22 of stock material.
  • the illustrated embodiment employs a pair of drawer slides 82 mounted to an outside surface on each side of the chamber 70. A single slide under the chamber 70 may be sufficient if it is strong enough to support a loaded chamber.
  • the chamber 70 can be mounted below the housing 52 to facilitate loading stock material from the front or output side of the converter 50. In such an arrangement the sheet stock material is preferably continuously positively engaged and supported as it is pulled into the converter.
  • the feed mechanism 54 includes a feed motor 90 mounted to one side of the housing 52 to provide power via a gearbox 92.
  • the drive shaft 94 for the motor 90 and the gearbox 92 is shown in FIG. 1 1 , in which additional side panels have been removed from the housing 52 to show further details of internal components of the conversion machine 50.
  • FIG. 1 1 shows the rollers 80 that define the bottom side of the stock supply chamber 70 and a stack 22 of fan-folded sheet stock material thereon.
  • Stock material pulled from the chamber 70 and fed into the feed mechanism 54 enters a generally rectangular tunnel defined by upper, lower, and lateral sides walls 100, 102, 104, 106 that circumferentially bound the path of the stock material to guide the stock material as it travels through the feed mechanism 54.
  • the feed mechanism 54 includes pairs of upstream and downstream rotating members that draw the sheet stock material from the supply 64, crumple the stock material within the guide chute tunnel 96, and then connect overlapping layers of the stock material so that the resulting dunnage product retains a crumpled shape.
  • the upper rotating members 1 10 and 1 12 are resiliently biased toward the lower rotating members 1 14 and 1 16, which extend through a bottom wall of the guide tunnel 96.
  • the upper rotating members 1 10 and 1 12 extend through openings in an upper wall 100 of the guide tunnel 96 and are biased toward a corresponding lower feed member 1 14 and 1 16.
  • the upstream pair of rotating members 1 10 and 1 14 are formed of resilient wheels which grip and feed the sheet stock material from the stack 22 into the feed mechanism 54.
  • the downstream rotating members 1 12 and 1 16 pass sheet stock material therebetween at a slower rate than the upstream feed members 1 10 and 1 14, thereby causing the sheet stock material to crumple in the confined space between the upstream and downstream rotating members.
  • the downstream rotating members 1 12 and 1 16 also perform a connecting function, perforating and connecting multiple layers of sheet stock material as it passes between the rotating connecting members 1 12 and 1 16 to form a complete strip of dunnage.
  • dunnage strip continues to a severing mechanism 120 downstream of the feed mechanism 54, which separates a discrete length of dunnage product from the strip of dunnage.
  • the severed segments of dunnage product are dispensed through an output chute 122 for retrieval by a packer.
  • the motor 90 of FIG. 10 drives the upstream feed members 1 10 and 1 14 directly via the gear box 92, and a chain drive 124 couples the upstream feed members 1 10 and 1 14 to the downstream feed members 1 12 and 1 16.
  • the upper rotating members 1 10 and 1 12 are idlers and are not positively driven except to the extent that they rotate due to friction or engagement with the lower rotating members 1 14 and 1 16 or the strip of dunnage passing therebetween.
  • the size of the gear wheels used with the chain drive can be varied to vary the speed ratio between the upstream feed members 1 10 and 1 14 and the downstream feed members 1 12 and 1 16.
  • FIG. 13 shows the shingling of the fan-folded sheet material 22 as it is pulled from the stack with angled fold lines 34, and the resulting dunnage product 130.
  • This dunnage product 130 is unlike any other known dunnage product and is very flexible if bent about a vertical or horizontal axis, and provides a significant amount of cushioning.
  • the dunnage 130 has laterally-spaced cushioning portions 132 with a narrow central band 134 that is more compressed where the
  • downstream feed members 1 12 and 1 16 (FIG. 10) connected the layers of stock material together with two rows of tabs. The result is not unlike a series of cushioning vertebrae connected together along a central spine, with some flexibility for wrapping around objects or bending to fill unusual voids in a packing container.
  • FIGS. 14-24 Another exemplary embodiment of a dunnage conversion machine 200 provided by the invention is shown in FIGS. 14-24.
  • the converter 200 is designed to draw stock material from a fan- folded stack 201 in a lengthwise direction parallel to the fold lines.
  • the converter 200 has a stock supply chamber 202 at an upstream end of the converter 200 for supporting a supply of sheet stock material in the form of a fan-folded stack 201 , and a conversion assembly 204 for drawing sheet stock material from the stock supply chamber 202 and converting the stock material into a crumpled dunnage product.
  • the conversion assembly 204 in this converter 200 draws sheet stock material from a top of the stack 201 supported in the supply chamber 202.
  • the conversion assembly 204 is similar to the conversion assembly 53 shown in FIG. 12, with the following differences.
  • the conversion assembly of 204 has a feed mechanism 206 that includes upstream and downstream sets of rotating members 208 and 210, respectively, to draw the stock material from the supply chamber 202, crumple the stock material within a guide chute tunnel 214 and connect overlapping layers to retain the dunnage product in a crumpled state, much the same way that the conversion assembly 53 operates, as described above.
  • the stock supply chamber 202 is generally rectangular and has a length dimension L and a width dimension W that generally corresponds to the width and depth of the stack of fan folded sheet stock material.
  • the stock supply chamber 202 has a downstream or front wall 220 mounted adjacent the conversion assembly 204, a pair of parallel upright side walls 222 extending from laterally- spaced sides of the front wall 220, and one or more rear walls 224 opposite the front wall 220 that extend inwardly from the side walls 222, to support the sides of the stack 201 .
  • the opening between the rear walls 224 in the illustrated embodiment facilitates loading a new stack 201 , and observing how much stock material remains in the chamber 202.
  • the stock supply chamber 202 has a bottom surface 226 with an elevated center region 228 in a center portion extending along the length dimension L between recessed lateral side regions 230 adjacent the lengthwise-extending side walls 222.
  • the bottom surface 226 provides a convex support surface 226 for the stack 201 of fan-folded sheet stock material.
  • the stack 201 generally is thicker at the lengthwise-extending folded edges, and the convex shape of the bottom support surface 226 provides an approximately level upper surface of the stack 201 in the stock supply chamber 202. This is believed to facilitate producing a better dunnage product with a more consistent shape.
  • the bottom support surface 226 in this embodiment is movable, and preferably is supported by means for raising the height of the stack 201 as sheet stock material is drawn therefrom, to maintain a substantially constant elevation of the top surface of the stack 201 . Consequently, the raising means and support surface 226 form an elevator.
  • the support surface 226 is upwardly biased by springs 232, and guided in its movement by telescoping slide guides 234, one portion of which is connected to the support surface 226 and another portion is connected to one of the side walls 222 of the stock supply chamber 202. Stops 236 on the side walls 222 of the stock supply chamber 202 limit the upper extent of the movement of the support surface 226.
  • the stock supply chamber 202 also includes a cover 240 that extends over a top side of the stock supply chamber 202.
  • the illustrated cover 240 further extends over a portion of the rear walls 224.
  • the cover 240 extends from the housing for the conversion assembly 204, and thus also can decrease noise from the conversion assembly 204.
  • the stock supply chamber 202 that supports the supply of sheet stock material further includes fold-forming control features integrated therein that control movement in the sheet stock material as it is drawn from the stock supply chamber.
  • these features are primarily incorporated into or coupled to the cover 240.
  • the cover 240 has a longitudinally- extending protrusion or spine 242 that extends into the stock supply chamber 202.
  • the spine 242 has a sloped bottom surface facing into the stock supply chamber 202. The bottom surface of the spine 242 slopes downward toward the
  • This spine 242 helps to maintain tension in a center of the sheet stock material and facilitates folding and crimping in the stock material as it is drawn from the stack 201 .
  • the centrally-positioned spine 242 inhibits these puffed portions from moving laterally across the top of the stack 201 , and helps to ensure consistent tracking of the stock material in a downstream direction to the conversion assembly 204.
  • the spine 242 also may help to crease folds in the stock material before it enters the conversion assembly 204.
  • the cover 240 also includes a pair of blocks 244 mounted to engage the upstream or rear corners at the top surface of the stack 201 of sheet stock material. As the top sheet is displaced from the stack 201 , the upstream corners of the sheet tend to move upwardly and laterally. These corner blocks 244 keep the corners of the stock material from moving upward until the corners of the sheet move from under the blocks 244, by which time the sheet is further under the spine 242 and in closer engagement with the sloping bottom surface of the spine 242. The top sheet can only move laterally, although inhibited in doing so by the central spine 242, or in the downstream direction in which it is drawn. This also helps to ensure that the stock material folds properly as the top sheet is pulled from the stack 201 in the stock supply chamber 202 and into the conversion assembly 204.
  • the stock supply chamber 202 includes a vertically-adjustable member 246 between the stock material support (bottom surface 226 of the chamber 202) and the feed mechanism 206.
  • the vertically-adjustable member defines a lower edge of a passage from the stock supply chamber 202 to the feed mechanism 206.
  • the vertically-adjustable member 246 is mounted to the front wall 220 of the chamber 202 for vertical adjustment relative to the front wall 220 to adjust the height of a gap above the top of the front wall 220 that forms the passage from the stock supply chamber 202 to the feed mechanism 206.
  • This vertically-adjustable member 246 is narrower than the front wall 220, however, effectively forming a passage that is taller toward the sides to allow the stock material to expand on the lateral sides as it passes the top of the front wall 220.
  • the conversion machine 200 further includes a pair of adjustable pinch rollers 250 and 252 between the stock supply chamber 202 and the feed mechanism 206.
  • a lower roller 252 is biased, such as with a spring, toward an upper roller 250.
  • the upper roller 250 is adjustable vertically to move the point of contact between the upper and lower rollers 250 and 252, such as through the threaded screw and hand knob in the illustrated embodiment.
  • the upper roller 250 is mounted to the cover 240 of the stock supply chamber 202 to separate the rollers 250 and 252 when the cover 240 is opened to load a new supply of stock material.
  • the lower roller 252 is wider than the upper roller 250.
  • the greater width of the lower roller 252 encourages the stock material to expand and fold on the opposite side adjacent the upper roller 250 and away from the top of the stack.
  • the lower roller 252 is spring-biased toward the upper roller 250 to pinch the stock material therebetween, and the rollers 250 and 252 generally are centrally located to engage a center of the stock material as it is drawn into the feed mechanism 206.
  • the amount of stock material released from the stack 201 into the feed mechanism 206 will decrease.
  • the upper roller 250 is lowered, lowering the contact point between the rollers 250 and 252 relative to the upper surface of the stack 201 , the amount of stock material released from the stack 201 is increased. This also decreases the yield, the amount of dunnage produced relative to the amount of sheet stock material supplied to the feed mechanism 206.
  • the downstream set of rotating members 210 also may need to be adjusted to accommodate the change in the volume of stock material to ensure that the overlapping layers are properly crimped so that they will hold together, and to prevent or minimize tearing in a thinner strip of crumpled stock material. These adjustments also effect the width and thickness of the stock material. When the contact point is lowered and more sheets enter the feed mechanism 206, the resulting dunnage pad becomes wider but thinner, and as the contact point is raised, the resulting pad becomes narrower yet thicker.
  • a sensor can be used to indicate to the operator that the supply of stock material is nearly depleted, or to stop the conversion assembly 204 automatically.
  • the operator unlatches a door 260 in the housing over the feed mechanism 206 (FIG. 19), and then raises the cover 240 from the stock supply chamber 202, separating the upper pinch roller 250 from the lower pinch roller, as shown in FIG. 20.
  • a bundle of fan-folded sheet stock material is placed on the bottom surface 226 of the stock supply chamber 202 (FIG. 21 ). Any strapping or support structure is removed from the bundled stack, and the operator can push the stack 201 and the support surface 226 downward into the stock supply chamber 202. If stock material remains from a previous supply, a bottom sheet of the previous supply can be spliced to the top sheet in the new stack 201 , such as with an adhesive pre-applied to one or the other.
  • the pre-applied adhesive and release liner described in connection with the previous embodiment is one effective method.
  • top sheets of stock material are then pulled from the stack 201 and placed in the nip of the upstream rotating members 208 in the feed mechanism 206 (FIGS. 23 and 24).
  • the rear cover 240 is then replaced over the stock supply chamber 202, capturing the stock material between the pinch rollers 250 and 252 (FIG. 16), and the door 260 is closed over the conversion assembly 204 and relatched (FIG. 25).
  • the conversion machine 200 is now ready to convert the stock material into a dunnage product.
  • the present invention also provides a supply of sheet stock material for conversion into a relatively less-dense dunnage product.
  • the supply includes a stack of fan-folded sheet stock material having a width dimension and fold lines generally parallel to the width dimension. The supply provides a relatively wide sheet stock material within a narrower footprint, reducing or eliminating the need to form the sheet material before it is pulled into a feed mechanism in a dunnage conversion machine.
  • the present invention provides a method of converting a supply of sheet stock into a relatively less dense dunnage product, including the following steps of (i) providing a stack of fan-folded sheet material having fold lines parallel to a width dimension; and (ii) drawing sheet stock material from the stack in a direction parallel to the width dimension.

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Abstract

L'invention concerne un procédé de conversion d'un apport de feuilles imprimées en stock en un produit de fardage relativement moins dense, comprenant les étapes suivantes consistant à (i) fournir une pile de matériaux de feuilles pliées en éventail ayant des lignes de pli parallèles à une dimension de la largeur ; et (ii) attirer le matériau de feuilles imprimées en stock de la pile dans une direction parallèle à la dimension de la largeur.
PCT/US2012/041014 2011-06-07 2012-06-06 Système et procédé de conversion de fardage d'empreinte réduite Ceased WO2012170474A1 (fr)

Priority Applications (3)

Application Number Priority Date Filing Date Title
US14/124,967 US9676586B2 (en) 2011-06-07 2012-06-06 Reduced footprint dunnage conversion system and method
EP12727980.0A EP2718095B1 (fr) 2011-06-07 2012-06-06 Système et procédé de conversion de fardage d'empreinte réduite
CN201280028265.1A CN103648760B (zh) 2011-06-07 2012-06-06 减少覆盖区的垫料转换系统及方法

Applications Claiming Priority (4)

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CN103648760A (zh) 2014-03-19
EP2718095B1 (fr) 2016-08-10
US9676586B2 (en) 2017-06-13
US20140155241A1 (en) 2014-06-05
CN103648760B (zh) 2016-11-23
EP2718095A1 (fr) 2014-04-16

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